CN110107926A - A kind of stove knob adjusted with air door - Google Patents

Abstract

The invention discloses a kind of stove knobs adjusted with air door, and in particular to gas cooker regulation technology field.It is adjusted which solve existing gas cooker air door and needs to adjust from bottom, or the deficiency for needing to stop working repeatedly.The stove knob adjusted with air door, including first pressure resilient structures, second pressure resilient structures and small knob, guide rail is equipped between first pressure resilient structures and second pressure resilient structures, idler wheel is set in guide rail, idler wheel moves the compression rebound for realizing small knob in guide rail, second pressure resilient structures are placed in first pressure resilient structures, and small knob and second pressure resilient structures are clamped.First pressure resilient structures include a disk and the support column across disc centre axis, and the support column positioned at disk lower part is cylindrical, and the support column positioned at disk top is cylindrical for rectangular class in one side, and guide rail is set on the end face being square.

Description

A kind of stove knob adjusted with air door

Technical field

The present invention relates to gas cooker regulation technology fields, and in particular to a kind of stove knob adjusted with air door.

Background technique

The burning of kitchen range needs air, and sufficiently, combustion gas just can full combustion for air and gas mixing.Make air and combustion gas mixed Close, existing gas cooker is there are two types of air door mode: a kind of structure is that have an air door to adjust dress between cooking range furnace end and valve body It sets, this device band handle, there is hole on bottom case, handle is stretched out outside bottom case by the hole on bottom case, and aspect user is adjusted, Yong Hutong Rotational handle is crossed, the mixing of combustion gas and air is controlled, enables combustion gas normal combustion；One is full upward air intake kitchen range, combustion gas It is located in cooker burner with conditioner.Regulating device, by adjusting the screw on nozzle, changes together with nozzle Ejector capacity of the nozzle to air, the mixing of Lai Shixian combustion gas and air.The knob of common kitchen range is only intended to control kitchen range fire The size of power, without other effects.

For general gas stove, there is a drawback in use, regulating device of air door is located at the bottom case of gas-cooker Lower section, it is inconvenient after gas-cooker is embedded into cabinet, then through regulating device of air door adjusting flame, it needs gas-cooker Air door adjusting is carried out after lifting again, and gas-cooker lifts inclination after-combustion flame instability, air door is adjusted to also not accurate enough. For the gas-cooker of Full-upside air inlet type, though the air door for eliminating bottom case is adjusted, it also requires by above adjusting panel Nozzle adjust flame status, this drawback is that gas-cooker necessarily is in flameout state when adjusting nozzle, not so can burn It is in one's hands, and user does not know how de-regulation nozzle when gas-cooker is in flameout state, can only go to attempt repeatedly, and repeatedly During trial, nozzle is heated, and may be burned when user goes to touch nozzle with hand again, and this structure, It is dirty to be easy to cause kitchen range to be unable to normal use spray nozzle clogging in kitchen range use process.

Summary of the invention

It is directly adjusted, adjusts at the panel of gas-cooker the purpose of the present invention is in view of the above deficiencies, proposing a kind of Section process does not need the stove knob adjusted with air door to stop working repeatedly yet.

The present invention specifically adopts the following technical scheme that

A kind of stove knob adjusted with air door, including first pressure resilient structures, second pressure resilient structures and small Knob is equipped with guide rail, idler wheel is arranged in guide rail, idler wheel exists between the first pressure resilient structures and second pressure resilient structures The compression rebound of small knob is realized in movement in guide rail, and second pressure resilient structures are placed in first pressure resilient structures, small knob It is clamped with second pressure resilient structures.

Preferably, the first pressure resilient structures include a disk and the support column across disc centre axis, are located at The support column of disk lower part is cylindrical, and the support column positioned at disk top is cylindrical for rectangular class in one side, guide rail setting In on the end face being square.

Preferably, the second compression rebound structure includes mounting portion, and the top of mounting portion is connected with disk, in mounting portion The heart is equipped with the mounting hole of perforation disk, and support column passes through mounting hole and realizes first pressure resilient structures and second pressure resilient structures Cooperation, the upper surface of disk is symmetrical arranged buckle.

Preferably, the small knob includes cylindrical small knob shell and upper cover, the upper surface of the small knob shell On set there are two square hole, be connected in the fixation that small knob shell and the second compression rebound structure are realized at square hole, small knob The circumference of shell is equipped with step at, and upper cover is taken on step.

Preferably, the lower end surface of the upper cover is equipped with four cylinders, and the upper surface of small knob shell is set there are four aperture, and four In root cylinder four apertures of corresponding insertion, and therebetween using interference fit.

Preferably, spring, the inside of small knob shell are equipped between the small knob shell and second pressure resilient structures Equipped with cylindrical body, spring is placed on cylindrical body.

Preferably, for the small knob in compressive state, idler wheel is located at initial position, presses small knob, and idler wheel exists Inclined-plane movement under the action of power in follows track, second pressure resilient structures move down at this time, after decontroling hand, in the work of spring force Under, scroll wheel positions change, and second pressure resilient structures are bounced to extreme higher position, and small knob shell connects second pressure with upper cover Resilient structures, small knob bounce, and the small knob bounced can act on rotation, press small knob, under force, second again Pressure resilient structures move down, and idler wheel race moves again, and after loosing one's grip under spring force, second pressure resilient structures move up, Idler wheel returns to initial position, completes the operation circulation of a small knob.

Preferably, the first pressure resilient structures connect air door by conducting wire, and small knob drives first pressure to return Structure rotation is played, and then conducting wire is driven to rotate damper.

The invention has the following beneficial effects:

This is applied to gas cooker with the stove knob that air door is adjusted, more convenient for the adjusting of air-valve of gas range fast Victory prevents user from occurring hidden danger during damper, protects user's personal safety, the tune that bounces is pressed when needing Section, air door is easy to adjust, and tentacle can be that is, beautiful convenient.Stove knob can be hidden when not in use, beautiful and generous, and knob does not contact Table top, clean hygiene.

Detailed description of the invention

Fig. 1 is the stove knob overall structure diagram adjusted with air door；

Fig. 2 is first pressure resilient structures overall schematic；

Fig. 3 is first pressure resilient structures main view；

Fig. 4 is first pressure resilient structures side view；

Fig. 5 is first pressure resilient structures top view；

Fig. 6 is second pressure resilient structures overall schematic；

Fig. 7 is second pressure resilient structures main view；

Fig. 8 is second pressure resilient structures side view；

Fig. 9 is second pressure resilient structures side view；

Figure 10 is roller structure schematic diagram；

Figure 11 is small knob upper cover schematic diagram；

Figure 12 is small knob shell mechanism schematic diagram；

Figure 13 is small knob shell top view；

Figure 14 is small knob cut-away view of outer cover；

Figure 15 is idler wheel and first pressure resilient structures fit structure schematic diagram；

Figure 16 is idler wheel and first pressure resilient structures fit structure schematic diagram；

Figure 17 is idler wheel and first pressure resilient structures fit structure schematic diagram；

Figure 18 is idler wheel and first pressure resilient structures fit structure schematic diagram.

Wherein, 1 is screw, and 2 be nut, and 3 be first pressure resilient structures, and 31 be disk, and 32 be the support on disk top Column, 33 be the support column of disk lower part, and 34 is cylindrical for rectangular class, and 35 be guide rail, and 4 be second pressure resilient structures, and 41 are Buckle, 42 be disk, and 43 be mounting hole, and 5 be idler wheel, and 6 be small knob shell, and 61 be square hole, and 62 be step, and 63 be aperture, 64 It is upper cover for cylindrical body, 7,71 be cylinder, and 8 be spring.

Specific embodiment

A specific embodiment of the invention is described further in the following with reference to the drawings and specific embodiments:

As shown in Figure 1, a kind of stove knob adjusted with air door, including first pressure resilient structures 3, second pressure are returned Structure 4 and small knob are played, guide rail 35, guide rail 35 are equipped between the first pressure resilient structures 3 and second pressure resilient structures 4 Middle setting idler wheel 5, idler wheel 5 move the compression rebound for realizing small knob in guide rail 35, and second pressure resilient structures are placed on first In pressure resilient structures, small knob and second pressure resilient structures are clamped.

As Figure 2-Figure 5, first pressure resilient structures 3 include a disk 31 and the support across disc centre axis Column, the support column 33 positioned at disk lower part is cylindrical, and the support column 32 positioned at disk top is in that one side is rectangular class cylinder Shape, guide rail 35 are set on rectangular end face.

As shown in Fig. 6-Figure 10, the second compression rebound structure 4 includes mounting portion, and the top of mounting portion is connected with disk 42, the center of mounting portion is equipped with the mounting hole 43 of perforation disk, support column pass through mounting hole realize first pressure resilient structures and The upper surface of the cooperation of second pressure resilient structures, disk is symmetrical arranged buckle 41.

As shown in figures 11-14, the small knob includes cylindrical small knob shell 6 and upper cover 7, outside the small knob It is set on the upper surface of shell 6 there are two square hole 61, buckle 41, which is connected at square hole 61, realizes small knob shell and the second compression rebound The circumference of the fixation of structure, small knob shell is equipped with step 62 at, and upper cover 7 is taken on step.

The lower end surface of upper cover 7 is equipped with four cylinders 71, and the upper surface of small knob shell is set there are four aperture 63, four cylinders In 71 four apertures 63 of corresponding insertion, and therebetween using interference fit.

Inside between small knob shell 6 and second pressure resilient structures 4 equipped with the small knob shell 6 of spring 8 is equipped with cylinder Body 64, spring are placed on cylindrical body 64.

As shown in figures 15-18, for the small knob in compressive state, idler wheel is located at initial position as shown in figure 15, presses Make a movement small knob, and inclined-plane of the idler wheel under force in follows track moves to position shown in Figure 16, at this time the second pressure Power resilient structures move down, and after decontroling hand, under spring force, scroll wheel positions change to position shown in Figure 17, the second pressure Power resilient structures are bounced to extreme higher position, and small knob shell connects second pressure resilient structures with upper cover, and small knob is bounced, bounced Small knob can act on rotation, press small knob again, under force, second pressure resilient structures move down, and idler wheel is again Secondary to move to position shown in Figure 18, after loosing one's grip under spring force, second pressure resilient structures move up, and idler wheel returns to just The operation circulation of a small knob is completed in beginning position.

First pressure resilient structures connect air door by conducting wire, and small knob drives the rotation of first pressure resilient structures, And then conducting wire is driven to rotate damper.The stove knob is installed on the switching knob of kitchen range, is installed on each switching knob There are two the stove knobs, are respectively used to the central flame cap and external ring fire cover of a burner of control kitchen range, and first pressure is returned The cylinder for playing structure is equipped with screw thread, is threadedly engaged screw 1, first pressure resilient structures are locked in the switch of kitchen range by nut 2 On knob.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.

Certainly, the above description is not a limitation of the present invention, and the present invention is also not limited to the example above, this technology neck The variations, modifications, additions or substitutions that the technical staff in domain is made within the essential scope of the present invention also should belong to of the invention Protection scope.

Claims (8)

1. a kind of stove knob adjusted with air door, which is characterized in that sprung back including first pressure resilient structures, second pressure Structure and small knob, which is characterized in that be equipped with guide rail between the first pressure resilient structures and second pressure resilient structures, lead Idler wheel is set in rail, and idler wheel moves the compression rebound for realizing small knob in guide rail, and second pressure resilient structures are placed on the first pressure In power resilient structures, small knob and second pressure resilient structures are clamped.

2. a kind of stove knob adjusted with air door as described in claim 1, which is characterized in that the first pressure rebound Structure includes a disk and the support column across disc centre axis, and the support column positioned at disk lower part is cylindrical, is located at circle The support column on disk top is that rectangular class is cylindrical in one side, and guide rail is set on rectangular end face.

3. a kind of stove knob adjusted with air door as claimed in claim 2, which is characterized in that second compression rebound Structure includes mounting portion, and the top of mounting portion is connected with disk, and the center of mounting portion is equipped with the mounting hole of perforation disk, and support column is worn The cooperation that mounting hole realizes first pressure resilient structures and second pressure resilient structures is crossed, the upper surface of disk is symmetrical arranged card Button.

4. a kind of stove knob adjusted with air door as claimed in claim 2, which is characterized in that the small knob includes circle Cylindrical small knob shell and upper cover, set that there are two square holes on the upper surface of the small knob shell, are connected at square hole Realize the fixation of small knob shell and the second compression rebound structure, the circumference of small knob shell along place equipped with step, upper cover take in On step.

5. a kind of stove knob adjusted with air door as claimed in claim 4, which is characterized in that the lower end surface of the upper cover Equipped with four cylinders, the upper surface of small knob shell is set there are four aperture, and four cylinders are corresponding to be inserted into four apertures, and the two Between using interference fit.

6. a kind of stove knob adjusted with air door as claimed in claim 4, which is characterized in that the small knob shell with Spring is equipped between second pressure resilient structures, the inside of small knob shell is equipped with cylindrical body, and spring is placed on cylindrical body.

7. a kind of stove knob adjusted with air door as described in claim 4-6 is any, which is characterized in that the small knob In compressive state, idler wheel is located at initial position, presses small knob, the idler wheel inclined-plane in follows track under force Movement, second pressure resilient structures move down at this time, and after decontroling hand, under spring force, scroll wheel positions change, second pressure Resilient structures are bounced to extreme higher position, and small knob shell connects second pressure resilient structures with upper cover, and small knob is bounced, bounced Small knob can act on rotation, press small knob again, and under force, second pressure resilient structures move down, and idler wheel is run again Secondary movement, after loosing one's grip under spring force, second pressure resilient structures move up, and idler wheel returns to initial position, complete one The operation circulation of small knob.

8. a kind of stove knob adjusted with air door as claimed in claim 7, which is characterized in that the first pressure rebound Structure connects air door by conducting wire, and small knob drives the rotation of first pressure resilient structures, and then conducting wire rotation is driven to adjust Air door.